The particle-in-cell code ORB5 is a global gyrokinetic turbulence simulation code in tokamak geometry. It has been developed at CRPP, Lausanne, Switzerland, with major contributions from IPP, Garching, Germany, and IPP, Greifswald, Germany, under a long-standing collaboration. The code ORB5 solves the gyrokinetic equations in the whole plasma core, including the magnetic axis. A field-aligned filtering procedure and sophisticated noise-control and heating operators allow for accurate simulations. Recently, the code ORB5 has been extended to include self-consistent perpendicular magnetic field perturbations. The inclusion of magnetic perturbations allows for a comprehensive study of finite beta effects on microinstability. In this paper, we ...
One of the central open questions in our attempt to understand microturbulence in fusion plas-mas co...
This paper presents the current state of the global gyrokinetic code Orb5 as an update of the previo...
Gyrokinetic simulations of electromagnetic turbulence in magnetically confined torus plasmas includi...
The particle-in-cell code ORB5 is a global gyrokinetic turbulence simulation code in tokamak geometr...
A global plasma turbulence simulation code, ORB5, is presented. It solves the gyrokinetic electrosta...
The pullback scheme is implemented in the global gyrokinetic particle-in-cell code ORB5 (Jolliet et ...
The ultimate goal of magnetic confinement fusion research is to develop an electricity producing pow...
Electromagnetic turbulence is addressed in tokamak and stellarator plasmas with the global gyrokinet...
In order to get a better understanding of the interaction of plasma microinstabilities and associate...
Performance of tokamak fusion plasmas is heavily linked to the radial heat and particle transport, w...
Nonlinear Particle-In-Cell (PIC) simulations are a useful tool for studying ITG modes, which are com...
Global simulations of electromagnetic turbulence, collisionless tearing modes, and Alfven Eigenmodes...
In magnetic fusion devices, the radial transport of heat and particle largely exceeds predictions ba...
A two-fold analysis of electromagnetic core tokamak instabilities in the framework of the gyrokineti...
One of the most challenging problems facing plasma physicists today involves themodeling of plasma t...
One of the central open questions in our attempt to understand microturbulence in fusion plas-mas co...
This paper presents the current state of the global gyrokinetic code Orb5 as an update of the previo...
Gyrokinetic simulations of electromagnetic turbulence in magnetically confined torus plasmas includi...
The particle-in-cell code ORB5 is a global gyrokinetic turbulence simulation code in tokamak geometr...
A global plasma turbulence simulation code, ORB5, is presented. It solves the gyrokinetic electrosta...
The pullback scheme is implemented in the global gyrokinetic particle-in-cell code ORB5 (Jolliet et ...
The ultimate goal of magnetic confinement fusion research is to develop an electricity producing pow...
Electromagnetic turbulence is addressed in tokamak and stellarator plasmas with the global gyrokinet...
In order to get a better understanding of the interaction of plasma microinstabilities and associate...
Performance of tokamak fusion plasmas is heavily linked to the radial heat and particle transport, w...
Nonlinear Particle-In-Cell (PIC) simulations are a useful tool for studying ITG modes, which are com...
Global simulations of electromagnetic turbulence, collisionless tearing modes, and Alfven Eigenmodes...
In magnetic fusion devices, the radial transport of heat and particle largely exceeds predictions ba...
A two-fold analysis of electromagnetic core tokamak instabilities in the framework of the gyrokineti...
One of the most challenging problems facing plasma physicists today involves themodeling of plasma t...
One of the central open questions in our attempt to understand microturbulence in fusion plas-mas co...
This paper presents the current state of the global gyrokinetic code Orb5 as an update of the previo...
Gyrokinetic simulations of electromagnetic turbulence in magnetically confined torus plasmas includi...